'God particle' teaches that Universe should have ceased to exist

A view of equipment in the LHC (Large Hadron Collider) tunnel during a visit at the Organization for Nuclear Research (CERN) in Meyrin, near Geneva (Reuters / Denis Balibouse) / Reuters

A refitted Large Hadron Collider (LHC) is being readied to delve deeper into the secrets of the Universe’s structure, a new British scientists’ model considering Higgs boson data claims the Universe should have collapsed immediately after the Big Bang.

Confirmation of the Higgs boson’s existence in July 2012 did not
actually add clarity to the general picture of our Universe after
all. The information acquired raised new, even more complex,
questions.

Physicists at King’s College in London claim they have recreated
the conditions following the Big Bang, but this time using the
new information acquired with the help of the LHC. British
scientists maintain now that the new data related to the
so-called ‘God particle’ suggests the universe should have
expanded excessively fast after the Big Bang and collapsed
billions of years ago.

“During the early universe, we expected cosmic inflation —
this is a rapid expansion of the universe right after the Big
Bang,” co-author of the King’s College study Robert Hogan, a
Ph.D. student in physics, told Live Science. “This expansion
causes lots of stuff to shake around, and if we shake it too
much, we could go into this new energy space, which could cause
the universe to collapse.”

Such a conclusion could mean only one thing: if the universe we
see around us is real while it shouldn’t be, then we don’t know
something critically important about our 13.8-billion-year home
and must move forward to learn it better.

The scientist shared with Live Science the super-symmetry theory,
which says that presently-known particles might have
super-partner particles. So the Higgs boson could coexist with
four other sibling particles that have similar masses, but
different electrical charges.

This could serve as a partial explanation to universe’s
stability. And just like the Higgs boson, they could be
discovered one day, but that would imply the construction of
particle accelerators even more powerful than the LHC.

So far the stability of the universe is also under scrutiny by
another scientific experiment, a Background Imaging of Cosmic
Extragalactic Polarization (BICEP-2) telescope in the Antarctic,
has reportedly managed to register the echo of the cosmic
inflation as background microwave radiation permeating our
Universe.

Higgs boson opened new horizons

The experiments held in 2012 managed to register the elusive ‘God
particle’, without which matter as such would fail to exist
because the particles would not ‘hold together’.

For that discovery, the author of the now-proven theory, British
scientist Peter Higgs, won the Nobel Prize in Physics - along
with François Englert and Robert Brout, because back in 1964 they
independently proposed a theory about the existence of a
yet-undiscovered particle that gives mass to other particles.

With the Higgs boson existence proven, it became the final
‘brick’ required to verify the Standard Model of particle
physics.

“In nature, there are two types of particles: fermions and
bosons,” a research associate at Fermilab, Ketino Kaadze,
shared in a news release. “Fermions, quarks and leptons make
up all the matter around us. Bosons are responsible for mediating
interaction between the elementary particles.”

“We think that the Higgs boson is responsible for the
generation of mass of fundamental particles,” Kaadze said,
explaining that the electrons acquire their mass by interacting
with the ‘God particle’, “the centerpiece that ties it all
together.”

The $10 billion LHC will be fully ready in early 2015, when it
will push two proton beams at a speed nearly that of light in
order to collide them, creating conditions similar to those a
mere split second after the Big Bang.

“The machine is coming out of a long sleep after undergoing
an important surgical operation,” Frederick Bordry, director
for accelerators and technology at the European Organization for
Nuclear Research, told AP.

Yet creating Higgs bosons at the European Organization for
Nuclear Research required the experts to amplify the
center-of-mass energy in the LHC.

This time the largest ‘atom smasher’ in the world will get twice
as much energy, which would make the proton beam inside a
27km-long underground construction circle it 11,000 times in a
matter of a second.

“It's effectively a new machine, poised to set us on the path
to new discoveries,” CERN Director General Rolf Heuer said.

According to Fabiola Gianotti, a particle physicist and former
spokesperson for the ATLAS (A Toroidal LHC Apparatus) Experiment,
which found the Higgs boson, finding the Higgs was only a
“starting point,” National Geographic reported.

Having found Higgs boson, the LHC team will now try to prepare it
better for staging next set of experiments, focusing on the
search for ‘dark matter’, antimatter and previously-unknown
dimensions of space and time.

The Higgs boson is not as well-known as the other elementary
particles, Gianotti said.

So far modern physics have discovered 16 elementary particles,
with the Higgs boson becoming number 17 – and it is
“completely different than all of the others,” Gianotti,
who now works with CERN, said.

“With a new friend, you want to know him or her better,”
she concluded.

CERN Director General Rolf Heuer said that without the Higgs
boson “you cannot exist.”

On Monday, CERN issued a new study showing that the Higgs boson
decays into fermions, the particles that make up the matter
itself, which makes the discovery of Higgs "a door to new
physics," Gianotti said.

“We know that the Standard Model of physics that we have now
does not explain some puzzles in nature,” Ketino Kaadze
said. “We know there has to be other models that can explain
phenomena like dark matter and dark energy, and why we can have
different generations of the same particle that are identical
except for their mass. Finding the Higgs particle wasn’t the end
of the story. It was the starting point on a new horizon.”